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cryptpad/www/common/common-util.js

589 lines
18 KiB
JavaScript

(function (window) {
var Util = {};
// polyfill for atob in case you're using this from node...
window.atob = window.atob || function (str) { return Buffer.from(str, 'base64').toString('binary'); }; // jshint ignore:line
window.btoa = window.btoa || function (str) { return Buffer.from(str, 'binary').toString('base64'); }; // jshint ignore:line
Util.slice = function (A, start, end) {
return Array.prototype.slice.call(A, start, end);
};
Util.bake = function (f, args) {
if (typeof(args) === 'undefined') { args = []; }
if (!Array.isArray(args)) { args = [args]; }
return function () {
return f.apply(null, args);
};
};
Util.both = function (pre, post) {
if (typeof(pre) !== 'function') { throw new Error('INVALID_USAGE'); }
if (typeof(post) !== 'function') { post = function (x) { return x; }; }
return function () {
pre.apply(null, arguments);
return post.apply(null, arguments);
};
};
Util.clone = function (o) {
return JSON.parse(JSON.stringify(o));
};
Util.serializeError = function (err) {
if (!(err instanceof Error)) { return err; }
var ser = {};
Object.getOwnPropertyNames(err).forEach(function (key) {
ser[key] = err[key];
});
return ser;
};
Util.tryParse = function (s) {
try { return JSON.parse(s); } catch (e) { return;}
};
Util.mkAsync = function (f, ms) {
if (typeof(f) !== 'function') {
throw new Error('EXPECTED_FUNCTION');
}
return function () {
var args = Array.prototype.slice.call(arguments);
setTimeout(function () {
f.apply(null, args);
}, ms);
};
};
// If once is true, after the event has been fired, any further handlers which are
// registered will fire immediately, and this type of event cannot be fired twice.
Util.mkEvent = function (once) {
var handlers = [];
var fired = false;
return {
reg: function (cb) {
if (once && fired) { return void setTimeout(cb); }
handlers.push(cb);
},
unreg: function (cb) {
if (handlers.indexOf(cb) === -1) { throw new Error("Not registered"); }
handlers.splice(handlers.indexOf(cb), 1);
},
fire: function () {
if (once && fired) { return; }
fired = true;
var args = Array.prototype.slice.call(arguments);
handlers.forEach(function (h) { h.apply(null, args); });
}
};
};
Util.mkTimeout = function (_f, ms) {
ms = ms || 0;
var f = Util.once(_f);
var timeout = setTimeout(function () {
f('TIMEOUT');
}, ms);
return Util.both(f, function () {
clearTimeout(timeout);
});
};
Util.response = function (errorHandler) {
var pending = {};
var timeouts = {};
if (typeof(errorHandler) !== 'function') {
errorHandler = function (label) {
throw new Error(label);
};
}
var clear = function (id) {
clearTimeout(timeouts[id]);
delete timeouts[id];
delete pending[id];
};
var expect = function (id, fn, ms) {
if (typeof(id) !== 'string') { errorHandler('EXPECTED_STRING'); }
if (typeof(fn) !== 'function') { errorHandler('EXPECTED_CALLBACK'); }
pending[id] = fn;
if (typeof(ms) === 'number' && ms) {
timeouts[id] = setTimeout(function () {
if (typeof(pending[id]) === 'function') { pending[id]('TIMEOUT'); }
clear(id);
}, ms);
}
};
var handle = function (id, args) {
var fn = pending[id];
if (typeof(fn) !== 'function') {
return void errorHandler("MISSING_CALLBACK", {
id: id,
args: args,
});
}
try {
fn.apply(null, Array.isArray(args)? args : [args]);
} catch (err) {
errorHandler('HANDLER_ERROR', {
error: err,
id: id,
args: args,
});
}
clear(id);
};
return {
clear: clear,
expected: function (id) {
return Boolean(pending[id]);
},
expectation: function (id) {
return pending[id];
},
expect: expect,
handle: handle,
};
};
Util.find = function (map, path) {
var l = path.length;
for (var i = 0; i < l; i++) {
if (typeof(map[path[i]]) === 'undefined') { return; }
map = map[path[i]];
}
return map;
};
Util.uid = function () {
return Number(Math.floor(Math.random() * Number.MAX_SAFE_INTEGER))
.toString(32).replace(/\./g, '');
};
Util.fixHTML = function (str) {
if (!str) { return ''; }
return str.replace(/[<>&"']/g, function (x) {
return ({ "<": "&lt;", ">": "&gt", "&": "&amp;", '"': "&#34;", "'": "&#39;" })[x];
});
};
Util.hexToBase64 = function (hex) {
var hexArray = hex
.replace(/\r|\n/g, "")
.replace(/([\da-fA-F]{2}) ?/g, "0x$1 ")
.replace(/ +$/, "")
.split(" ");
var byteString = String.fromCharCode.apply(null, hexArray);
return window.btoa(byteString).replace(/\//g, '-').replace(/=+$/, '');
};
Util.base64ToHex = function (b64String) {
var hexArray = [];
window.atob(b64String.replace(/-/g, '/')).split("").forEach(function(e){
var h = e.charCodeAt(0).toString(16);
if (h.length === 1) { h = "0"+h; }
hexArray.push(h);
});
return hexArray.join("");
};
Util.uint8ArrayToHex = function (bytes) {
var hexString = '';
for (var i = 0; i < bytes.length; i++) {
if (bytes[i] < 16) { hexString += '0'; }
hexString += bytes[i].toString(16);
}
return hexString;
};
Util.hexToUint8Array = function (hexString) {
var bytes = new Uint8Array(Math.ceil(hexString.length / 2));
for (var i = 0; i < bytes.length; i++) {
bytes[i] = parseInt(hexString.substr(i * 2, 2), 16);
}
return bytes;
};
// given an array of Uint8Arrays, return a new Array with all their values
Util.uint8ArrayJoin = function (AA) {
var l = 0;
var i = 0;
for (; i < AA.length; i++) { l += AA[i].length; }
var C = new Uint8Array(l);
i = 0;
for (var offset = 0; i < AA.length; i++) {
C.set(AA[i], offset);
offset += AA[i].length;
}
return C;
};
Util.escapeKeyCharacters = function (key) {
return key && key.replace && key.replace(/\//g, '-');
};
Util.unescapeKeyCharacters = function (key) {
return key.replace(/\-/g, '/');
};
Util.deduplicateString = function (array) {
var a = array.slice();
for(var i=0; i<a.length; i++) {
for(var j=i+1; j<a.length; j++) {
if(a[i] === a[j]) { a.splice(j--, 1); }
}
}
return a;
};
/*
* Saving files
*/
Util.fixFileName = function (filename) {
return filename.replace(/ /g, '-').replace(/[\/\?]/g, '_')
.replace(/_+/g, '_');
};
var oneKilobyte = 1024;
var oneMegabyte = 1024 * oneKilobyte;
var oneGigabyte = 1024 * oneMegabyte;
Util.bytesToGigabytes = function (bytes) {
return Math.ceil(bytes / oneGigabyte * 100) / 100;
};
Util.bytesToMegabytes = function (bytes) {
return Math.ceil(bytes / oneMegabyte * 100) / 100;
};
Util.bytesToKilobytes = function (bytes) {
return Math.ceil(bytes / oneKilobyte * 100) / 100;
};
Util.magnitudeOfBytes = function (bytes) {
if (bytes >= oneGigabyte) { return 'GB'; }
4 years ago
else if (bytes >= oneMegabyte) { return 'MB'; }
else { return 'KB'; }
};
// given a path, asynchronously return an arraybuffer
var getCacheKey = function (src) {
var _src = src.replace(/(\/)*$/, ''); // Remove trailing slashes
var idx = _src.lastIndexOf('/');
var cacheKey = _src.slice(idx+1);
if (!/^[a-f0-9]{48}$/.test(cacheKey)) { cacheKey = undefined; }
return cacheKey;
};
Util.fetch = function (src, cb, progress, cache) {
var CB = Util.once(Util.mkAsync(cb));
var cacheKey = getCacheKey(src);
var getBlobCache = function (id, cb) {
if (!cache || typeof(cache.getBlobCache) !== "function") { return void cb('EINVAL'); }
cache.getBlobCache(id, cb);
};
var setBlobCache = function (id, u8, cb) {
if (!cache || typeof(cache.setBlobCache) !== "function") { return void cb('EINVAL'); }
cache.setBlobCache(id, u8, cb);
};
var xhr;
var fetch = function () {
xhr = new XMLHttpRequest();
xhr.open("GET", src, true);
if (progress) {
xhr.addEventListener("progress", function (evt) {
if (evt.lengthComputable) {
var percentComplete = evt.loaded / evt.total;
progress(percentComplete);
}
}, false);
}
xhr.responseType = "arraybuffer";
xhr.onerror = function (err) { CB(err); };
xhr.onload = function () {
if (/^4/.test(''+this.status)) {
return CB('XHR_ERROR');
}
var arrayBuffer = xhr.response;
if (arrayBuffer) {
var u8 = new Uint8Array(arrayBuffer);
if (cacheKey) {
return void setBlobCache(cacheKey, u8, function () {
CB(null, u8);
});
}
return void CB(void 0, u8);
}
CB('ENOENT');
};
xhr.send(null);
};
if (!cacheKey) { return void fetch(); }
getBlobCache(cacheKey, function (err, u8) {
if (err || !u8) { return void fetch(); }
CB(void 0, u8);
});
return {
cancel: function () {
if (xhr && xhr.abort) { xhr.abort(); }
}
};
};
Util.dataURIToBlob = function (dataURI) {
var byteString = atob(dataURI.split(',')[1]);
var mimeString = dataURI.split(',')[0].split(':')[1].split(';')[0];
// write the bytes of the string to an ArrayBuffer
var ab = new ArrayBuffer(byteString.length);
var ia = new Uint8Array(ab);
for (var i = 0; i < byteString.length; i++) {
ia[i] = byteString.charCodeAt(i);
}
// write the ArrayBuffer to a blob, and you're done
var bb = new Blob([ab], {type: mimeString});
return bb;
};
Util.throttle = function (f, ms) {
var last = 0;
var to;
var args;
var defer = function (delay) {
// no timeout: run function `f` in `ms` milliseconds
// unless `g` is called again in the meantime
to = setTimeout(function () {
// wipe the current timeout handler
to = undefined;
// take the current time
var now = +new Date();
// compute time passed since `last`
var diff = now - last;
if (diff < ms) {
// don't run `f` if `g` was called since this timeout was set
// instead calculate how much further in the future your next
// timeout should be scheduled
return void defer(ms - diff);
}
// else run `f` with the most recently supplied arguments
f.apply(null, args);
}, delay);
};
var g = function () {
// every time you call this function store the time
last = +new Date();
// remember what arguments were passed
args = Util.slice(arguments);
// if there is a pending timeout then do nothing
if (to) { return; }
defer(ms);
};
g.clear = function () {
clearTimeout(to);
to = undefined;
};
return g;
};
/* takes a function (f) and a time (t) in ms. returns a function wrapper
which prevents the internal function from being called more than once
every t ms. if the function is prevented, returns time til next valid
execution, else null.
*/
Util.notAgainForAnother = function (f, t) {
if (typeof(f) !== 'function' || typeof(t) !== 'number') {
throw new Error("invalid inputs");
}
var last = null;
return function () {
var now = +new Date();
if (last && now <= last + t) { return t - (now - last); }
last = now;
f();
return null;
};
};
Util.createRandomInteger = function () {
return Math.floor(Math.random() * Number.MAX_SAFE_INTEGER);
};
Util.noop = function () {};
/* for wrapping async functions such that they can only be called once */
Util.once = function (f, g) {
return function () {
if (!f) { return; }
f.apply(this, Array.prototype.slice.call(arguments));
f = g;
};
};
Util.blobToImage = function (blob, cb) {
var reader = new FileReader();
reader.onloadend = function() {
cb(reader.result);
};
reader.readAsDataURL(blob);
};
Util.blobURLToImage = function (url, cb) {
var xhr = new XMLHttpRequest();
xhr.onload = function() {
var reader = new FileReader();
reader.onloadend = function() {
cb(reader.result);
};
reader.readAsDataURL(xhr.response);
};
xhr.open('GET', url);
xhr.responseType = 'blob';
xhr.send();
};
// Check if an element is a plain object
Util.isObject = function (o) {
return typeof (o) === "object" &&
Object.prototype.toString.call(o) === '[object Object]';
};
Util.isCircular = function (o) {
try {
JSON.stringify(o);
return false;
} catch (e) { return true; }
};
/* recursively adds the properties of an object 'b' to 'a'
arrays are only shallow copies, so references to the original
might still be present. Be mindful if you will modify 'a' in the future */
Util.extend = function (a, b) {
if (!Util.isObject(a) || !Util.isObject(b)) {
return void console.log("Extend only works with 2 objects");
}
if (Util.isCircular(b)) {
return void console.log("Extend doesn't accept circular objects");
}
for (var k in b) {
if (Util.isObject(b[k])) {
a[k] = Util.isObject(a[k]) ? a[k] : {};
Util.extend(a[k], b[k]);
continue;
}
if (Array.isArray(b[k])) {
a[k] = b[k].slice();
continue;
}
a[k] = b[k];
}
};
Util.isChecked = function (el) {
// could be nothing...
if (!el) { return false; }
// check if it's a dom element
if (typeof(el.tagName) !== 'undefined') {
return Boolean(el.checked);
}
// sketchy test to see if it's jquery
if (typeof(el.prop) === 'function') {
return Boolean(el.prop('checked'));
}
// else just say it's not checked
return false;
};
Util.hexToRGB = function (hex) {
var h = hex.replace(/^#/, '');
return [
parseInt(h.slice(0,2), 16),
parseInt(h.slice(2,4), 16),
parseInt(h.slice(4,6), 16),
];
};
Util.isSmallScreen = function () {
return window.innerHeight < 800 || window.innerWidth < 800;
};
Util.stripTags = function (text) {
var div = document.createElement("div");
div.innerHTML = text;
return div.innerText;
};
// return an object containing {name, ext}
// or {} if the name could not be parsed
Util.parseFilename = function (filename) {
if (!filename || !filename.trim()) { return {}; }
var parsedName = /^(\.?.+?)(\.[^.]+)?$/.exec(filename) || [];
return {
name: parsedName[1],
ext: parsedName[2],
};
};
// Tell if a file is plain text from its metadata={title, fileType}
Util.isPlainTextFile = function (type, name) {
// does its type begins with "text/"
if (type && type.indexOf("text/") === 0) { return true; }
// no type and no file extension -> let's guess it's plain text
var parsedName = Util.parseFilename(name);
if (!type && name && !parsedName.ext) { return true; }
// other exceptions
if (type === 'application/x-javascript') { return true; }
if (type === 'application/xml') { return true; }
return false;
};
var emoji_patt = /([\uD800-\uDBFF][\uDC00-\uDFFF])/;
var isEmoji = function (str) {
return emoji_patt.test(str);
};
var emojiStringToArray = function (str) {
var split = str.split(emoji_patt);
var arr = [];
for (var i=0; i<split.length; i++) {
var char = split[i];
if (char !== "") {
arr.push(char);
}
}
return arr;
};
Util.getFirstCharacter = function (str) {
if (!str || !str.trim()) { return '?'; }
var emojis = emojiStringToArray(str);
return isEmoji(emojis[0])? emojis[0]: str[0];
};
if (typeof(module) !== 'undefined' && module.exports) {
module.exports = Util;
} else if ((typeof(define) !== 'undefined' && define !== null) && (define.amd !== null)) {
define([], function () {
window.CryptPad_Util = Util;
return Util;
});
} else {
window.CryptPad_Util = Util;
}
}(typeof(self) !== 'undefined'? self: this));